Inventory Management I
Definitions
Inventory-A physical resource that a firm holds in stock with the intent of selling it or transforming it into a more valuable state. Inventory System- A set of policies and controls that monitors levels of inventory and determines what levels should be maintained, when stock should be replenished, and how large orders should be
Inventory
Def. - A physical resource that a firm holds in stock with the intent of selling it or transforming it into a more valuable state. Raw Materials Works-in-Process Finished Goods Maintenance, Repair and Operating (MRO)
Expensive Stuff
The average carrying cost of inventory across all mfg.. in the U.S. is 30-35% of its value. What does that mean? Savings from reduced inventory result in increased profit.
Zero Inventory?
Reducing amounts of raw materials and purchased parts and subassemblies by having suppliers deliver them directly. Reducing the amount of works-in process by using just-in-time production. Reducing the amount of finished goods by shipping to markets as soon as possible.
Inventory Positions in the Supply Chain
Raw Materials
Works in Process
Finished Goods
Finished Goods in Field
Reasons for Inventories
Improve customer service Economies of purchasing Economies of production Transportation savings Hedge against future Unplanned shocks (labor strikes, natural disasters, surges in demand, etc.) To maintain independence of supply chain
Inventory and Value
Remember this?
Quality Speed Flexibility Cost
Nature of Inventory: Adding Value through Inventory
Quality - inventory can be a “buffer� against poor quality; conversely, low inventory levels may force high quality Speed - location of inventory has gigantic effect on speed Flexibility - location, level of anticipatory inventory both have effects Cost - direct: purchasing, delivery, manufacturing indirect: holding, stockout. HR systems may promote this-3 year postings
Nature of Inventory: Functional Roles of Inventory
Transit Buffer Seasonal Decoupling Speculative Lot Sizing or Cycle Mistakes
Design of Inventory Mgmt. Systems: Macro Issues
Need for Finished Goods Inventories
Need to satisfy internal or external customers? Can someone else in the value chain carry the inventory?
Ownership of Inventories Specific Contents of Inventories Locations of Inventories Tracking
How to Measure Inventory
The Dilemma: closely monitor and control inventories to keep them as low as possible while providing acceptable customer service. Average Aggregate Inventory Value: how much of the company’s total assets are invested in inventory? Ford:6.825 billion Sears: 4.039 billion
Inventory Measures
Weeks of Supply
Ford: 3.51 weeks Sears: 9.2 weeks
Inventory Turnover (Turns)
Ford: 14.8 turns Sears: 5.7 turns GM: 8 turns Toyota: 35 turns
Reasons Against Inventory
Non-value added costs Opportunity cost Complacency Inventory deteriorates, becomes obsolete, lost, stolen, etc.
Inventory Costs
Procurement costs Carrying costs Out-of-stock costs
Procurement Costs
Order processing Shipping Handling Purchasing cost: c(x)= $100 + $5x Mfg. cost: c(x)=$1,000 + $10x
Carrying Costs
Capital (opportunity) costs Inventory risk costs Space costs Inventory service costs
Out-of-Stock Costs
Lost sales cost Back-order cost
Independent Demand
Independent demand items are finished products or parts that are shipped as end items to customers. Forecasting plays a critical role Due to uncertainty- extra units must be carried in inventory
Dependent Demand
Dependent demand items are raw materials, component parts, or subassemblies that are used to produce a finished product. MRP systems---next week
Design of Inventory Mgmt. Systems: Micro Issues
Order Quantity Economic Order Quantity
Order Timing
Reorder Point
Objectives of Inventory Control
1) Maximize the level of customer service by avoiding understocking. 2) Promote efficiency in production and purchasing by minimizing the cost of providing an adequate level of customer service.
Balance in Inventory Levels
When should the company replenish its inventory, or when should the company place an order or manufacture a new lot? How much should the company order or produce? Next: Economic Order Quantity
Models for Inventory Management:
EOQ
EOQ minimizes the sum of holding and setup costs Q = 2DCo/Ch D = annual demand Co = ordering/setup costs Ch = cost of holding one unit of inventory
Seatide
EOQ = 2DCo/Ch D = annual demand = 6,000 Co = ordering/setup costs = $60 Ch = cost of holding one unit of inventory $3.00 x 24% = .72 2 x 6,000 x 60 .72
720,000 .72
1,000
Marginal Analysis Holding Costs $
Ordering Costs Units
Reorder Point
Quantity to which inventory is allowed to drop before replenishment order is made Need to order EOQ at the Reorder Point: ROP = D X LT D = Demand rate per period LT = lead time in periods
Sawtooth Model level of inventory
average
inventory units
Q
t
time
Q - System Inventory Control
based on reorder point - When inventory is depleted to ROP, order replenishment of quantity EOQ.
Order Quantities
when demand is smooth and continuous, can operate responsebased system by determining
best quantity to replenish periodic demand (EOQ) frequency of replenishment (ROP)
Reorder Point
Planning for Uncertainty
changing lead times changing demand
Uncertainty creeps in:
Plug in safety stock
Safety stock - allows manager to determine the probability of stock levels - based on desired customer service levels
Inventory Model Under Uncertainty reorder Qm point
safety stock time
Models for Inventory Management:
Quantity Discount
Basically EOQ with quantity discounts To solve: 1. Write out the total cost equation 2. Solve EOQ at highest price and no discounts 3. If Qmin falls in a range with a lower price, recalculate EOQ assuming holding cost for that range. Call this Q2. 4. Evaluate the total cost equation at Q2 at the next highest price break point. OR Use a spreadsheet
P-System Periodic Review Method
an alternative to ROP/Q-system control is periodic review method Q-system - each stock item reordered at different times - complex, no economies of scope or common prod./transport runs P-system - inventory levels for multiple stock items reviewed at same time - can be reordered together higher carrying costs - not optimum, but more practical
Using P-System
audit inventory level at interval (T) quantity to place on order is difference between max. quantity (M) and amount on hand at time of review management task - set optimal T and M to balance stock availability and cost In ABC analysis, which items would use P-system???
Types of Inventory Systems
By Degree of Control required
often use grouping method, such as ABC
Classifying Inventory Items
ABC Classification (Pareto Principle) A Items: very tight control, complete and accurate records, frequent review B Items: less tightly controlled, good records, regular review C Items: simplest controls possible, minimal records, large inventories, periodic review and reorder
Does ABC Classification Make Sense for an Assembler?
i.e. – Gateway Computers
Planning Supply Chain Activities Anticipatory - allocate supply to each warehouse based on the forecast
Response-based - replenish inventory with order sizes based on specific needs of each warehouse
Anticipatory Inventory Control
determine requirements by forecasting demand for the next production run or purchase establish current on-hand quantities add appropriate safety stock based on desired stock availability levels and uncertainty demand levels determine how much new production or purchase needed (total needed - on-hand)
Response-Based System
replenishment, production, or purchases of stock are made only when it has been signaled that there is a need for product downstream requires shorter order cycle time, often more frequent, lower volume orders determine stock requirements to meet only most immediate planning period (usually about 3 weeks)
Service Level Achieved •Item fill rate (IFR): the probability of filling an order for 1 item from current stock
1-
expected number of units out of stock/year total annual demand
•Weighted Average Fill Rate (WAFR): multiply IFR for each stock item on an order weighted by the ordering frequency for the item